Cross-species efficacy of enzyme replacement therapy for CLN1 disease in mice and sheep
Hemanth R. Nelvagal, … , Thomas M. Wishart, Jonathan D. Cooper
Hemanth R. Nelvagal, … , Thomas M. Wishart, Jonathan D. Cooper
Published August 30, 2022
Citation Information: J Clin Invest. 2022;132(20):e163107. https://doi.org/10.1172/JCI163107.
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Research Article Neuroscience

Cross-species efficacy of enzyme replacement therapy for CLN1 disease in mice and sheep

Abstract

CLN1 disease, also called infantile neuronal ceroid lipofuscinosis (NCL) or infantile Batten disease, is a fatal neurodegenerative lysosomal storage disorder resulting from mutations in the CLN1 gene encoding the soluble lysosomal enzyme palmitoyl-protein thioesterase 1 (PPT1). Therapies for CLN1 disease have proven challenging because of the aggressive disease course and the need to treat widespread areas of the brain and spinal cord. Indeed, gene therapy has proven less effective for CLN1 disease than for other similar lysosomal enzyme deficiencies. We therefore tested the efficacy of enzyme replacement therapy (ERT) by administering monthly infusions of recombinant human PPT1 (rhPPT1) to PPT1-deficient mice (Cln1–/–) and CLN1R151X sheep to assess how to potentially scale up for translation. In Cln1–/– mice, intracerebrovascular (i.c.v.) rhPPT1 delivery was the most effective route of administration, resulting in therapeutically relevant CNS levels of PPT1 activity. rhPPT1-treated mice had improved motor function, reduced disease-associated pathology, and diminished neuronal loss. In CLN1R151X sheep, i.c.v. infusions resulted in widespread rhPPT1 distribution and positive treatment effects measured by quantitative structural MRI and neuropathology. This study demonstrates the feasibility and therapeutic efficacy of i.c.v. rhPPT1 ERT. These findings represent a key step toward clinical testing of ERT in children with CLN1 disease and highlight the importance of a cross-species approach to developing a successful treatment strategy.

Authors

Hemanth R. Nelvagal, Samantha L. Eaton, Sophie H. Wang, Elizabeth M. Eultgen, Keigo Takahashi, Steven Q. Le, Rachel Nesbitt, Joshua T. Dearborn, Nicholas Siano, Ana C. Puhl, Patricia I. Dickson, Gerard Thompson, Fraser Murdoch, Paul M. Brennan, Mark Gray, Stephen N. Greenhalgh, Peter Tennant, Rachael Gregson, Eddie Clutton, James Nixon, Chris Proudfoot, Stefano Guido, Simon G. Lillico, C. Bruce A. Whitelaw, Jui-Yun Lu, Sandra L. Hofmann, Sean Ekins, Mark S. Sands, Thomas M. Wishart, Jonathan D. Cooper

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Figure 5

Therapeutic effect of i.c.v. administration of rhPPT1 in CLN1R151X sheep.

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Therapeutic effect of i.c.v. administration of rhPPT1 in CLN1R151X sheep...
(A) Gross anatomical examination and (B) structural MRI analysis showed a positive treatment effect of i.c.v. administration of rhPPT1 (CLN1R151X + rhPPT1) compared with untreated CLN1R151X sheep and WT controls showing an overall reduction in cerebral and cerebellar atrophy in rhPPT1-treated CLN1R151X sheep. (C) Histograms of individual measures of cortical thickness in the pre- and post-cruciate gyri showing the extent of treatment effect in these regions, with the movement of values in rhPPT1-treated CLN1R151X sheep (green) moving closer to those for WT sheep (blue) than for untreated CLN1R151X controls (see Supplemental Table 1 and Supplemental Data File 1 for all cortical thicknesses). (D) Solid 3D representation showing colored INRA ovine atlas (24) cortical regions in which a significant treatment effect upon individual thickness measurements was detected. ANOVA (ERT > untreated, P < 0.0001). Yellow and green colors indicate the magnitude of this effect, with no significant treatment effect detected in the gray cortical regions (subcortical structures not analyzed). Yellow indicates regions where the mean cortical thickness values for rhPPT1-treated CLN1R151X sheep were closer to WT values (greater treatment effect), and green represents regions in which these values were closer to those of untreated CLN1R151X sheep (positive treatment effect).